Prescription management system

ABSTRACT

An imaging and workflow method, system, computer readable medium and user interface for processing information efficiently for the processing of medical prescription orders. The system includes support for document scanning, automated rules-based order processing, statistical reporting, document generation and document storage and retrieval. The present invention takes advantage of imaging technology to assist the user in scanning information into the system and software modules to improve the processing of orders. The present invention also includes database tables that identify to application processing logic the types and sequences of actions to be implemented for orders.

RELATED APPLICATIONS

This application is a divisional patent application of U.S. patent application Ser. No. 12/372,310, filed Feb. 17, 2009, which is a divisional patent application of U.S. patent application Ser. No. 10/134,638, filed on Apr. 30, 2002, and issued on Feb. 17, 2009 as U.S. Pat. No. 7,493,263. This application is also a divisional application of U.S. patent application Ser. No. 12/372,516 filed Feb. 17, 2009, which is also a divisional of U.S. patent application Ser. No. 10/134,638, filed on Apr. 30, 2002, and issued on Feb. 17, 2009 as U.S. Pat. No. 7,493,263, all of which are incorporated herein by reference.

FIELD OF INVENTION

The present invention relates generally to an image and workflow method, system, and medium for processing orders in the pharmacy industry. In particular, the present invention relates to a method, system, and medium for processing drug prescriptions in the mail order pharmacy industry.

BACKGROUND OF THE INVENTION

In the mail order pharmacy industry there exists a need to improve the quality and efficiency of processing medical prescriptions. The mail order pharmacy industry receives a tremendous number of orders on a daily basis, and it is not uncommon to receive 250,000 to 275,000 prescriptions within a single week per pharmacy location. Typically medical prescriptions must be filled in a very time efficient manner. Further, because errors in a prescription reaching a patient could be life threatening, a high level of quality control needs to be maintained throughout the entire prescription filling process.

The orders received from patients are frequently not in a condition to be filled directly without any additional processing. For instance, a prescription may be unreadable due to the illegible penmanship of the prescriber. Other conditions that impede the turnaround time of an order include, for example, a missing benefit plan membership number or the wrong or invalid benefit plan membership number; resolving any drug interactions a new prescription may present when taken with an existing patient condition or medication regime; the payment is missing; critical patient information is missing; the prescription is not covered by a patient's benefit's plan; and incorrect dosage or other dosage or usage inconsistencies. To resolve any of the above examples frequently requires the pharmacist or other technician working to fill the prescription to contact, for example, the prescriber, the patient, the member, the client or combinations thereof.

Presently, the pharmacy industry uses the physical paper order documents through the prescription filling process to process prescriptions. Reliance on the physical paper documentation is cumbersome and results in prescription processing delays. Under the current pharmacy model, as the orders for prescriptions come in they are reviewed and are assigned to a pan. A pan is a physical tray on which all the order documents are placed. Pans are typically color coded to correspond to each day of the week or some other such chronology related to order of receipt of an order. So for instance, if an order is received and opened on a Monday it would be placed in a red tray, which in this example is the Monday tray. To resolve any of the errors, questions, and/or conditions associated with an order may require a contact to the prescriber, the patient, the member, the client or combinations thereof. The prescriber is the individual responsible for writing the prescription contained in an order and is typically a medical doctor. The member is the individual that holds the benefit's plan. The patient can be a member but may instead be an individual named by the member, such as a family member, and covered by the benefit's plan. The client pays the bill in whole or in part associated with the drag and an administration fee to the mail order pharmacy and is typically the company or individual responsible for providing the benefit's plan to the member. For instance, if a prescription requires a call to the prescriber because the drug dosage is illegible, an attempt to contact the prescriber is made. If the attempt to contact the prescriber fails, a message may be left with the prescriber's office. When the prescriber returns the call the prescriber is typically subject to some wait time while the pharmacist or other technician goes through stacks of pans to locate the corresponding order. The resultant wait time typically results in some frustration on the part of the prescriber.

The current paper-based pharmacy system also suffers from the inability to locate the precise location of any one order. For instance, if a patient calls the pharmacy requesting an update on their order or if the patient needs to revise where the order is to be shipped, it is cumbersome to locate the order in an efficient manner that satisfies the patient. The lag time between when a patient calls to inquire about their prescription and when the order is located creates an ill impression of the pharmacy in the mind of the patient.

Another aspect of the present mail order pharmacy methods that create the misimpression that the pharmacy is slow to process orders results from the disparate geography of the patient and pharmacy. For example, if the mail order pharmacy is located in Seattle, Wash. and the patient is located in New York, N.Y. several days are lost just in order transit time—a few days to Seattle and a few additional days from Seattle to New York. It would be advantageous to be able to have the prescription mailed for processing to a pharmacy closer to New York, such as somewhere in New Jersey, to cut down on the mail transit time.

Furthermore, the present methods of mail order pharmacies cannot obtain intelligence on the health or state of the various system components involved in processing orders. More particularly, current methods are unable to provide real-time system state information.

Accordingly, we have determined an improvement upon the current system would provide real time state information regarding the condition of the system or any subcomponent of the system, the ability to locate an order at any time and in any location within the processing process, and the ability to process orders in locations distinct from the dispensing pharmacy.

SUMMARY OF THE INVENTION

It is therefore a feature and advantage of the present invention to provide a method for the automated processing of an order for at least one medical prescription received from a communication channel or other order entry process/system.

It is an additional and optional feature and advantage of the present invention to provide a system for the automated processing of an order for at least one medical prescription from a communication channel or other order entry process/system.

It is a further optional feature and advantage of the present invention to provide a graphical user interface for inputting, displaying, validating, and managing in real time a prescription fulfillment system, wherein the graphical user interface produces system reports and order statistics.

It is also an optional feature and advantage of the present invention to decrease reliance on paper files and manual document transmittal documents.

It is still another optional feature and advantage of the present invention to provide a computer-readable medium for the execution of an automated processing of an order for at least one medical prescription.

It is yet a further optional feature and advantage of the present invention to provide a computer-readable data structure for the automated processing of orders for at least one medical prescription accessed by a user interface sever program.

These and other objects and advantages of the present invention will be apparent to those of ordinary skill in the art upon inspection of the detailed description, drawings, and appended claims.

The present invention uses, for example, imaging technology to improve the quality and speed up the processing time of mail order prescriptions. The automated imaging environment of the present environment ensures timely and accurate handling of prescriptions and prescription review, as well as easier retrieval of complete workcase documentation. Flexible and configurable relational databases, applied to prescription orders reduces the overall prescription order processing time.

The present invention also reduces manual labor costs because the present invention preferably eliminates the need for manual labor to transport and sort orders progressing through the pharmacy. Additionally, the present invention preferably reduces labor costs, both in terms of time spent per order and the time required to train a new user for the system, by reducing the number of screens a user has to navigate through to progress the order through the system.

A scanner is used to read the information received through the mail into a 20 computer file and/or memory in which a permanent likeness of the data can optionally be stored. The permanent record created of the order results in easy retrieval of the order.

Database parameters are manually keyed into an order record and are used to index the different types of incoming order documents. Different parameters are used to distinguish the different types of order documents. For instances, payment coupons are distinguished from actual prescriptions.

Other features of the system, method and medium include database tables which identify to the application processing logic the types and sequences of actions to implement for orders. In certain instances, these sequences are performed automatically. System level reports are also generated that can track the productivity, quality and performance at any system level.

NOTATIONS AND NOMENCLATURE

The detailed descriptions which follow may be presented in terms of program 10 procedures executed on computing or processing systems such as, for example, a standalone gaming machine, a computer or network of computers. These procedural descriptions and representations are the means used by those skilled in the art to most effectively convey the substance of their work to others skilled in the art.

A procedure is here, and generally, conceived to be a self-consistent sequence of steps leading to a desired result. These steps are those requiring physical manipulations of physical quantities. Usually, though not necessarily, these quantities take the form of electrical or magnetic signals capable of being stored, transferred, combined, compared and otherwise manipulated. It proves convenient at times, principally for reasons of common usage, to refer to these signals as bits, values, elements, symbols, characters, terms, numbers, or the like. It should be noted, however, that all of these and similar terms are to be associated with the appropriate physical quantities and are merely convenient labels applied to these quantities.

Further, the manipulations performed are often referred to in terms, such as adding or comparing, which are commonly associated with mental operations performed by a human operator. No such capability of a human operator is necessary, or desirable in most cases, in any of the operations described herein which form part of the present invention; the operations are machine operations. Useful machines for performing the operation of the present invention include general purpose digital computers or similar devices.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other aspects, advantages, and novel features of the invention will become apparent upon reading the following detailed description and upon reference to accompanying drawings in which:

FIG. 1 is a block diagram illustrating the architecture of an embodiment of the order processing system of the present invention.

FIG. 2 is a screen capture illustrating an imaged order document.

FIG. 3 is a high level block diagram illustrating the overall flow control of an embodiment of the order processing system of the present invention.

FIG. 4 depicts a high level flow diagram for the processing of an order.

FIG. 5 depicts a flow diagram illustrating the iterative application and resolution of an order.

FIG. 6 depicts a flow control diagram for Header Entry.

FIGS. 7A and 7B depict a flow control diagram for preprocessing an order received in the mail communication channel.

FIG. 8 is a screen capture illustrating non-clinical data entry/verification.

FIG. 9 depicts a flow control diagram for Order Completion.

FIG. 10 depicts a flow control diagram for Contact Management.

FIG. 11 depicts a flow control diagram for Fax Process.

FIG. 12 is a screen capture illustrating clinical data entry/verification.

FIG. 13 A-13E depicts a flow control diagram of an overlapping embodiment for Contact Management.

FIG. 14A-14E depicts a flow control diagram for the resolution of a Managed Care order.

FIGS. 15 A and 15B depict a flow control diagram of an overlapping embodiment for the resolution of a Managed Care order.

FIGS. 16A and 16B depicts a flow control diagram of an overlapping embodiment for the resolution of a Managed Care order.

FIG. 17 depicts a schematic of information flow to Command and Control.

FIG. 18 depicts an example of an instrument panel screen from the Command and Control interface.

FIG. 19 depicts an example of a bar graph queue population screen from the Command and Control interface.

FIG. 20 depicts an example of a queue data table screen from the Command and Control interface.

FIG. 21 depicts an example of a queue data table screen from the Command and Control, wherein the columns of the table are represent time slices relating to the length of time a population of orders is in a particular queue.

FIG. 22 depicts an example of a combined queue data table and bar graph queue population screen from the Command and Control interface.

FIG. 23 shows one possible hardware and network configuration for a system according to the present invention.

FIGS. 24 to 53 includes examples of some of the protocols the present invention is capable of resolving.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS SYSTEM OVERVIEW

FIG. 1 is an example of a medical prescription order processing system 10 for practicing the present invention. In particular, a medical prescription order (also referred to as an order) is received by the system through at least one of a variety of communication channels to the system. The communication channels include both paper document channels, such as for example, mail (U.S. Post, commercial courier, such as for example, Federal Express®) manual facsimile, and the like; and paperless or electronic channels, such as for example, electronic facsimile, e-mail, phone call and the like. Order entry point or communication channels for order introduction into the system are found at the standard Slitter Processor 15, standard Facsimile Processor 20 for paper orders and at the standard Incoming Paperless Order Processor 25.

Received mail is processed and placed in condition to be scanned into the system. Mail enters the system at, for example, the Slitter Processor 15. The Slitter Processor 15 opens the envelopes and stamps the envelopes with predefined information which includes, for example, the date on which each envelope is opened by the Slitter Processor 15.

A similar preprocessing step is preformed on manual or paper faxes received through the manual fax communication channel to the Facsimile Processor 20. According to an alternative embodiment of the present invention, received manual faxes are bundled into paper batches along with received mail.

At the Document Preparation Processor 30 the contents of each envelope in a paper batch are reviewed and prepared for scanning. The entire contents of an envelope constitute an order. The open envelopes are combined into bundles of a predetermined number of envelopes. The bundles are then turned into paper batches. Each paper batch includes all the documents from a bundle and all associated preparation forms. Associated preparation forms include, for example, a batch header sheet which sits atop the paper batch, order separators which are used to separate the order, and a batch end sheet placed at the end of each paper batch. The contents of each envelope are assigned, when applicable under system protocols, to predefined document types or categories. Each document is affixed with a preprinted bar code label that identifies a document labeled with such as belonging to a particular document type. Document types include, for example, envelope—a distinction is made between system envelope and non-system envelopes; EasyRX/Urniversal Order Form (UOF); note—includes, for example, anything on which a member or patient has written information on; prescription refill; prescription renewal; payment coupon; payment—includes, for example, cash, checks and money orders; Health, Allergy and Medication Questionnaire (HAQ)—any type of member or patient health profile form; new prescription; non-scannable sheet—a sheet representing a document in an order which is not scannable; and other—includes anything that does not fit into a predefined category or document type. The order documents once ordered and affixed with the applicable bar code labels are sent to the High Speed Scanner 40 for imaging.

If the contents or a component of the documents of an order do not meet predefined criteria, such documents are pulled from the order, substituted with a nonscannable sheet, and optionally routed to an Exception Handling Processor 35. Documents routed to the Exception Handling Processor 35 include, for example, cash, three dimensional objects, such as, for example, empty prescription bottles, difficult to read items, difficult to scan documents or other documents that are not scannable by the High Speed Scanner Processor 40. If an order contains cash, the cash is counted and recorded at least in duplicate. The cash and at least one duplicate are deposited in a cash box 40 or deposit account and at least one duplicate is placed with the documents that make up the order from which the cash originated. Instead of scanning the cash included an order the recorded payment form is scanned. Other forms of receiving the cash may optionally be used. If an order contains a three dimensional object, such as, for example, an empty prescription bottle, the item is sent to the Exception Handling Processor 35. The Exception Handling Processor 35 takes account of the item and routes the record of the exception item to the order so the information contained in the item is available with the order for further order processing. In communication with the Exception Handling Processor 35 is an image display 36 for monitoring of the images captured by the Exception Handling Processor 35.

In communication with the High Speed Scanner Processor 40 is an image display 45 for monitoring the quality of the images captured. The scanned paper batches are reviewed according to a predetermined review audit schedule. According to an overlapping embodiment of the present invention, the predetermined review audit schedule is based on random selection, wherein only the scanned paper batches that are randomly selected are routed to the Image Quality Control Processor 50 for image review. Alternatively, all scanned paper batches may be utilized. Paper batches that are not selected for routing to the Image Quality Control Processor 50 are stored to a computer readable medium 55, such as, for example, computer memory, a computer hard 5 disk drive, a magnetic tape drive, and/or a computer readable optical medium. The hard copies corresponding to the order images are stored or archived in a file room 60 in a predetermined manner that indexes them to their electronic images. According to an alternative embodiment of the present invention each scanned document in a paper batch has attached or associated with it a document identification number that is linked to its corresponding paper batch header identification number under which the paper batch is archived in the file storage room 60.

The paper batches that are selected for review are reviewed by a system user. If deficiencies are found to exist in the scanned images and the deficiencies exceed a predetermined threshold the entire paper batch is routed to the Rescanning/Exception Handling Processor 35. If after review by the Image Quality Control Processor 50 the images are found acceptable, the images are then stored to a computer readable medium, such as, for example, computer memory, a computer hard disk drive, a magnetic tape drive, and/or a computer readable optical medium. The hard copies corresponding to the order images are stored in a file room 60 in a predetermined manner that indexes them to their electronic images.

The paper batches once having been scanned and approved are routed to system queues for further order processing.

Depending on an order's contents the order will pass through at least one of Order Header Processor 65, Order Completion Processor 70, and/or Order Review Processor 75. The Order Header Processor 65, Order Completion Processor 70, and Order Review Processor 75 are each in communication with each other and with the Administrative Protocol Resolution Processor 80 and the Professional Protocol Resolution Processor 85.

The Order Header Processor 65 processes the non-clinical data associated with an order. Non-clinical data includes, for example, the number of prescriptions in an order; the prescription classification; the member number—as it relates to a benefits plan, the group number—as it relates to a benefits plan, and the sub-group number—as it relates to a benefits plan; the amount and type of payment, the patient/client correspondence; the prescriber name; patient/client name; and prescription issue date.

The Order Completion Processor 70 processes the clinical data associated with an order. Clinical data includes, for example, drug information, drug strength, drug usage directions, number of allowed refills, quantity of medication to dispense, and dosage per day.

The Order Review Processor 75 reviews all the elements of an order to determine whether the order elements are correct. Orders leaving the Order Review Processor 75 are routed to a High Speed Printing Processor 90 where the prescription labels and other accompanying order materials are printed. The drugs are then actually dispensed at the Order Dispensing Processor 95 and routed to the Shipping Station Processor 100 for shipment to the patient. For examples of Processors 90, 95, and 100 see for example

U.S. Pat. No. 5,771,657 entitled “AUTOMATIC PRESCRIPTION FILLING, SORTING AND PACKAGING SYSTEM,” incorporated herein by reference.

The Command and Control Processor 101 is in communication with each system processor and provides an interface through which real time information regarding, for example, system queues, order location, system resources, and system production is displayed, managed and processed. In alternative embodiments, a distributed control system and/or parallel processing system may be used. In still another embodiment of the present invention, the Command and Control Processor 101 is in communication with each system processor except system processors 90, 95, and 100.

The Workflow Processor 102 is in communication with each system processor and directs the flow of orders through the various system processors and work queues. The Workflow processor 102 also provides information to the Command and Control Processor 101.

The Imaged Order Documents

FIG. 2 illustrates a screen capture of an imaged order document captured by the present invention. Once captured the imaged order documents can be manipulated in a number of ways including, for example, enlarging or zooming in on selected portions of an imaged order document; and viewing both the front and back of an imaged order document simultaneously, wherein the two sides appear in separate regions of the image display. Moreover, the imaged order documents can receive annotations directly. The imaged order documents can be updated directly to reflect discussions with a prescriber, such as for example, prescription clarifications and utilization review discussions. The imaged order documents as directly annotated becomes the legal prescription.

Order Processing Flow Control

FIG. 3 is a high level control flow diagram illustrating an example of the overall flow of an order through the order processing method of the present invention. A patient submits an order in a non-electronic format (e.g., paper) or in an electronic format (e.g., paperless) at 200 and 205, respectfully. The contents of the non-electronic format order are, for example, prepared for imaging and imaged at 210. Payments received with an order are processed and routed to a deposit account at 215. The contents of an order that cannot be imaged or require special processing to be imaged at 220 are optionally routed to a special handling area at 221. The system receives the order images and based on the order images the order is entered into the system by completing at least one data field corresponding to the order at 225. According to an alternative embodiment of the present invention, orders entering the system at step 205 are processed without proceeding through step 225. According to this embodiment, orders not requiring step 225 include, for example, prescription refills submitted from IVRU, the World Wide Web, the Internet, and other electronic communication channels.

Orders or order related information received through the fax communication channel at 235 are entered at 225. If it is determined that during the step of order completion at 225 that an order image is unreadable or otherwise unresolvable, the order is sent to a work queue at 226 to resolve the image.

Facsimile orders and follow up order information received at 205 are captured by a fax server and copied to an image repository and routed to at least one work queue for processing.

Once the order documents are imaged and received by the system the order images are assigned to at least one work queue at 230. The placement of an order in work queues is determined, at least in part, for example, by (i) what operation(s) has to be applied to the order to progress the order from at least one initial queue to an order shipping queue; (ii) the priority of the order, wherein the priority is assigned by the user or the system; and (iii) the order's targeted delivery date, which is based in part, for example, on the date the order was received, the client, and the communication channel that the order was received from. The method applies, as generated at 230 and determined at 240, all applicable protocols necessary to resolve an order and progress an order from at least one initial queue to an order shipping queue. The entered order is then reviewed at 250 against the imaged order.

Upon verification of the entered order against the imaged order the method locks the prescription data from receiving further updates and prints a label set at 255 corresponding to the order. By locking the prescription data from receiving further updates from this point forward establishes user accountability for the interpretation of the prescription data. The label set is printed, for example, in a traditional label printing fashion where the labels are printed first and then filled or an electronic data stream is sent to an automated dispensing pharmacy. See for example U.S. Pat. No. 5,771,657 entitled “AUTOMATIC PRESCRIPTION FILLING, SORTING AND PACKAGING SYSTEM,” incorporated herein by reference. The label set includes, for example, the actual prescription label and any other order related patient communications. The order is dispensed at 260 followed by a verification step at 265 to determine the whether the correct medication was dispensed. The verification step at 265 is followed by a packing step at 270 and the automatic generation of a manifest at 275 and then the actual shipping at 280 of the order to the patient.

According to one embodiment of the present invention, before an order can be locked and dispensed all protocols need to be resolved. Once all the protocols are resolved a set of routing logic rules determines which pharmacy or pharmacies will dispense the prescription. The routing logic rules consider, for example, the client benefit plan; contractual service levels; and the type of medication being dispensed, such as whether it is a controlled medication or whether it is temperature sensitive and requires special shipping precautions.

According to another embodiment of the present invention, the order in which an order is dispensed depends on the order's assigned priority number. The priority number can be assigned, for example, based on client contractual service guarantees, wherein orders associated with client service guarantees have a higher priority than those that are not and are therefore dispensed first.

FIG. 4 represents a high level illustration of the overall flow control of the method of the present invention independent of the communication channel from which an order is received. At 300 the order is received and then entered at 305 into the system. Prescriptions contained in an order are validated at 310. The validation step receives input from at least one database at 315. Examples of databases involved in the validation step include, for example, a clinical database 316, a benefits plan database 317, a rules database 318, and/or a contacts database 319. According to an alternative embodiment of the present invention examples of databases involved in the validation step include a clinical database, a plan database, a rules database, a contacts database, an accounts receivable database, a formulary database, a pricing database, a client profile database, a patient history database, and combinations thereof.

Upon validation of the prescriptions the method checks at 320 for the existence of any applicable protocols to the order. If any protocols apply, the applicable protocols are resolved against at least one database at 325. Examples of databases involved in the resolution step include, for example, a clinical database 316, a benefits plan database 317, a rules database 318, and/or a contacts database 319. According to an alternative embodiment of the present invention examples of databases involved in the protocol resolution step include a clinical database, a plan database, a rules database, a contacts database, an accounts receivable database, a formulary database, a pricing database, a client profile database, a patient history database, and combinations thereof. FIGS. 24 to 53 includes examples of some of the protocols the present invention is capable of resolving.

Upon the resolution of all applicable protocols at 325, the order is reviewed at 330 to determine whether each order element is correct. Correct orders are routed at 335 to a dispensing pharmacy queue. According to an overlapping embodiment of the present invention, a dispensing pharmacy queue can be located in a geographically different location from where the steps of order entry, validate prescription, resolve protocol and order review are completed. According to an overlapping embodiment of the present invention, each of the steps of order entry, validate prescription, resolve protocol, order review, and routing to dispensing queue can each be performed in geographically distinct locations from each other.

FIG. 5 illustrates the iterative process involved in resolving protocols that apply to an order. The order is received at 350, and assigned to at least one initial queue at 355. The order progresses to a dispensing pharmacy queue through at least one intermediate queue, wherein for each queue the order populates the method determines at 360 what, if any, protocols apply to an order. The method continues this process until all applicable protocols are resolved at 365. The method also provides a positive control mechanism that prevents an order from being lost or fixed in any single queue due to an inability to resolve a protocol. The method sends an alert at 370 when an order remains in any one queue beyond a predetermined period of time. Upon the resolution of all applicable protocols at 365, the order is reviewed to check to see that all order elements are correct and, if correct, then routed at 380 to a dispensing pharmacy queue.

Header Entry

FIG. 6 depicts an example of flow control for Header Entry. Header Entry provides the steps for entering the non-clinical data in order fields that relate to an order. The data verified and/or entered, in the Header Entry process is derived generally from the imaged order documents or other electronic and/or non-electronic order documents. The verification and/or entry process involves a review at 400 of the imaged order documents or other captured data to check against a data field or to enter data in a required but currently empty data field. FIG. 8 illustrates a screen capture of an embodiment of the present invention, wherein an imaged order document is juxtaposed to the member, address, and payment data entry fields. Examples of data that is entered in the header and/or verified include, for example, patient name, prescriber name, shipping address, payment amount, and/or credit card number. Each order image is reviewed at 400 followed by image classification at 405. Each document contained in an order is verified and accounted for at 410. The total number of prescriptions present in an order is verified at 415. Each prescription is reviewed at 420 to ensure that it has been assigned to the correct prescription classification. If no prescription classification is present, one is entered at 420. The order is checked to verify at 425 that it has been assigned the correct benefit's plan member number, group number and sub-group number. If no benefit's plan numbers are present or only a subset of the numbers is present the numbers are entered at 425. The amount and type of payment is verified at 430. If no payment amount and type has been provided an amount and type of payment is entered at 430.

Patient provided correspondence is verified at 435. If no patient correspondence has been entered, patient provided correspondence is entered at 435. According to an alternative embodiment of the present invention, if no patient correspondence is provided the process continues to step 440 with the patient correspondence field(s) blank.

The number of times a prescription is to be renewed or refilled is verified at 440. If renewal or refill numbers have not been entered, but a renewal or refill number is present in the order, then a renewal or refill number is entered at 440. The prescriber name is verified at 445. If no prescriber name has been entered than the prescriber name is entered at 445. In an alternative embodiment of the present invention, the step of at least one of verifying or entering a prescriber name additionally includes at least one of, selecting a prescriber from a history list which matches patients to their prescribers; selecting a prescriber from a prescriber database; entering a new prescriber; or editing existing prescriber information. The patient name is verified at 450. If no patient name each prescription is verified at 445. If no prescription issue date has been entered, than the issue date is entered at 455. Upon the verification and/or entry of all or a predetermined set of Header Entry data at 460 the order is submitted at 465 to a workflow queue to determine the order's next destination.

Preprocessing Flow Control for Mail Orders

FIGS. 7 A and 7B illustrate an example of the flow control of order preprocessing when an order is sent by mail. Orders are received at 500. If the received order is not a mail order 505, the order enters the system through one of other system communication channels at 510 and is routed to Header Entry, Order Completion or protocols as appropriate. Mailed orders are aggregated with other received mail orders. The envelopes in which the orders are contained are slit at 520 and date stamped at 525. The slit envelopes are bundled at 530 in stacks of predetermined size. Each bundle is then converted at 535 to a paper batch. Barcodes are placed on all applicable documents within a paper batch at 540. Every document in a paper batch is not necessarily eligible to receive a barcode. Document eligibility for receiving a barcode is based on predetermined criteria.

If a document within a paper batch fails at 545 to meet predetermined criteria, that document is sent to an optional exception handling area to determine whether the document is, for example, a fraudulent prescription at 550, a cash payment at 555, non-scannable at 560 or otherwise unreadable. If the order is determined to be fraudulent at 550 the order is cancelled at 560. If the order is a cash payment a cash receipt is completed in duplicate at 570 and the cash payment along with one of the duplicate cash receipts is placed in a deposit account at 575. The other duplicate cash receipt is returned at 580 to its corresponding order documents. If the order is nonscannable, a document representing the nonscannable document or the information contained therein is created, scanned and returned to its corresponding order documents. Exception handling documents that can be scanned are scanned at 586 using a flatbed scanner.

Documents in a paper batch that meet predetermined criteria are ordered at 585 by placing a Batch Header atop the paper batch, order separators between each order, and a Batch End at the end of the paper batch. The ordered paper batch is placed in an, for example, accordion folder at 590 and reviewed for organizational correctness at 595. Upon a successful review of the paper batch the paper batch is scanned at 600 and the payment documents are separated at 600 from the order documents. If the paper batch is not found to be in correct order at 595 the paper batch is routed to exception handling at 545 for reordering.

The scanning process attaches a paper batch identification number at 605 to each paper batch as well as a document identification number at 605 to each document image in a paper batch. According to an alternative embodiment of the present invention, the document identification number includes the Julian date and a unique identification number.

The scanning processor preferably captures the images of the order documents in color and images both sides of each order document simultaneously.

The scanned images captured from the paper batch are reviewed according to a predetermined review schedule. If upon review, the captured images are approved at 610 the images are written to disk at 615 or other computer storage medium. Also, upon approval of the images, the payments which were separated out at 600, are sent to a deposit account at 620. However, if the images once reviewed according to the predetermined review schedule are not approved the paper batch is rescanned at 600.

After approval at 610 of the scanned images the paper batch used to create the scanned images is archived at 625. The paper batch is archived at 625 in a predetermined manner that indexes it to the scanned images and, as such, is always retrievable during the processing of the order based on the scanned images. If the paper batch needs to be accessed during the processing of the order based on the scanned images, a task request at 630 can be submitted and the requested task performed at 635 on the paper batch.

The entire set of scanned images that correspond to all the documents in a paper batch are reviewed at 640 for quality control purposes based on a predetermined review schedule. According to one alternative embodiment of the present invention, the predetermined review schedule is based on the random selection of recently completed scanned paper batches. If a paper batch is selected for review at 645 each image in the batch is optionally reviewed. If the paper batch passes the review at 650 it is queued in at least one system work queue at 655 for further order processing. Paper batches that fail to pass the review at 650 are sent to exception handling at 545. Batches not selected for review are queued directly in at least one system work queue for further order processing.

Order Completion

FIG. 9 depicts an example of the general steps involved in Order Completion. The Order Completion steps involve the verification and/or entry of clinical data. The verification and/or entry process involves, in part, reviewing the imaged order documents or other captured data to check against a data field or to enter data. FIG. 12 illustrates a screen capture of an embodiment of the present invention, wherein the imaged prescription order document is juxtaposed to drug selection data entry fields. An order is obtained from a work queue at 700. A determination is made at 705 as to whether the patient information is correct. If the patient information is incorrect, the patient information is updated at 710 accordingly. Next drug information is reviewed at 715 to determine its correctness. If the drug information is incorrect, the correct drug is selected and the order is updated at 720 accordingly. Next the drug indicated strength is reviewed at 725. If the strength is incorrect, the correct drug strength is selected at 730. A determination is made then at 735 as to whether the directions for drug usage are correct. If the directions are incorrect, the correct directions are selected at 740. Corrections to any incorrect entry can be made by manually typing in the corresponding correct information or by selection of the correct information from pull down menus. Further, the above outlined steps do not have to be practiced in the order described above. According to an alternative embodiment of the present invention step 715, and corresponding step 720, are interchanged with step 735 and corresponding step 740.

Once all the clinical data is verified and/or entered, the order for that particular prescription is reviewed at 745 to ensure every order element at 750, as it relates to a single prescription, is correct. If a particular prescription's order elements are not correct then steps 705 through 735 are repeated until correct. If all the order elements for a particular prescription are correct, the order is checked for additional prescriptions at 755. If additional prescriptions are present in the same order, steps 705 through 750 are repeated until all the prescriptions in a single order are resolved. Upon completion of all the prescriptions in an order and/or all the order elements being found correct, the order is submitted to a dispensing pharmacy queue at 760. According to an alternative embodiment of the present invention, an order containing multiple prescriptions does not need to have all prescriptions in the order processed before releasing the individual prescriptions to the dispensing pharmacy queue at 760.

Moreover, and according to an alternative embodiment of the present invention, each step in the order completion process is supported by a set of tools that aid the user in the completion of order completion process. These tools include, for example, a drug usage direction builder that allows the user to build the drug usage directions by selecting from at least one pull down menu phrases and/or words; a spelling checker, and drug lookalike/sound-a-like functionality.

Protocols

Protocols are a set or aggregation of sets of rules that act to resolve elements of an order. Resolution of one protocol may give rise to the need to resolve additional protocols. For example, if an element from an order is missing or is unclear, protocols are used to not the missing or unclear element and to track the resolution of the element. Tracking includes, for example, noting which user performed the verification and who was contacted to resolve the element.

According to one embodiment of the present invention, the method and system of the present invention provides a set of wizards and tools that aid a user in resolving protocols. The wizards walk a user through a protocol or process in a step-by-step manner and show how to resolve a particular protocol. The wizards walk through the resolution of a protocol by providing a series of system prompts. The tools include, for example, Add Protocols, which allows a user to add a protocol to an order; Suspend Order, which allows a user to suspend the processing of an order temporarily; Stop/Cancel Prescription, which allows for the cancellation of a prescription within an order while still permitting the other prescriptions in an order to proceed; Stop/Cancel Order, which allows a user to completely cancel an entire order; Pull Prescription and Insert, which allows a user to flag an order when a drug loses patent protection so that at refill time the generic brands are available for the refill; New Prescription Copy, which allows an order or prescription to be copied into a new invoice; and Order Review, which allows instantaneous order review.

Contact Management

FIG. 10 depicts an example of the general flow control for Contact Management. A determination is made at 800 as to whether any applicable protocols apply. If a protocol applies, a determination is made at 805 as whether the protocol can be resolved without contacting a prescriber. If no contact is necessary, the protocol is resolved at 810 and submitted at 810 to a work queue for further processing. If a contact is required to resolve a protocol, a determination is made at 815 as to whether an outbound facsimile to the prescriber will resolve the protocol or whether a phone call to the prescriber is required. For protocols that can be optionally resolved by an outbound facsimile, a facsimile is optionally generated at 820 with the appropriate fields necessary to resolve the protocol populated and once populated the facsimile is transmitted at 820 to the prescriber. According to an alternative embodiment of the present invention, transmission of the fax initiates the running of a wait queue that measures the length of time from fax transmission to returned contact from prescriber. If the measured time exceeds a predetermined value before return contact by the prescriber is initiated, the order is placed in an outbound call queue.

If a phone call is required to resolve a protocol the contact request is routed at 830 to an outbound call queue, and a call is scheduled at 835. A phone call is placed at 840 to the prescriber at the scheduled time if the prescriber is reached at 845, the user placing the call retrieves the order at 850 with the protocol to be resolved from a virtual shelf. The user then reviews at 855 the order with the prescriber soliciting the necessary information from the prescriber to resolve the protocol. Once the protocol is resolved at 860, the order is placed in a work queue at 865 for further processing.

Alternatively, if a phone call is placed but the user received at 870 no answer, the order returns to the outbound call queue and another call is scheduled at 835—repeating steps 835 through 845. If a phone call is placed and a message is left at 875 for the prescriber, the outbound call queue is updated to reflect that a message was left for the prescriber and a predetermined period is set at 880 in which a call or other communication from a prescriber is to be received. If the predetermined period lapses before a return call is made at 885 another call is scheduled.

A phone call returned or fax returned at 885 from a prescriber launches a hunt routine at 890 to locate the order on the system. If a call back is received from the prescriber within the predetermined time, the order is located on the system at 890 and the call is transferred at 850 to a user on the system who retrieves the order at 850 from a virtual shelf. The user then reviews at 855 the order with the prescriber soliciting the necessary information from the prescriber to resolve the protocol. Once the protocol is resolved at 860 the order is placed in a work queue for further processing at 865.

If a facsimile is received from the prescriber at 885, the facsimile is linked to the order and a user reviews the information contained in the facsimile to resolve the protocol. Upon resolution of the protocol the order is placed in a work queue for further processing.

Alternatively, a call can be placed to the contact without proceeding through the outbound call queue step. Instead of routing the order to the outbound call queue, a user simply selects at 870 the contact and initiates at 875 the call to the selected contact. If the contact is reached at 880 the user reviews the order with the contact soliciting the necessary information from the contact to resolve the protocol. Once the protocol is resolved the order is updated and placed in a work queue for further processing. If the contact is not reached the order is routed to the outbound call queue.

Fax Contact Management

FIG. 11 illustrates an example of the flow control for Fax Contact Management. The protocols to be resolved are selected at 900. The fields necessary to resolve the protocol(s) are populated at 905 within the facsimile. The contact person is selected at 910. The time in which to receive a response before further action is taken is selected at 915. A determination as to whether to send a manual facsimile or a system generated electronic facsimile is made at 920. If a response is received within the selected time at 925 from the contact person, the order is updated according to the information contained in the facsimile. The process by which the received facsimile becomes part of the order differs depending on the mode in which the facsimile is received. If the facsimile is a manual or paper fax 930, the order is located on the system at 950 and the information in the facsimile is entered at 955. The manual or paper facsimile is then scanned at 960 and inserted at 965 into at least one of the imaged order documents or the order documents in the archived paper batch. Alternatively, the scanned image is inserted in the imaged order documents and the archived paper batch. If the facsimile is electronic or otherwise generated from one fax processing system to another, the order is updated based on the information contained in the facsimile and the received facsimile becomes at 970 part of the imaged order documents.

If an inbound facsimile, manual or electronic, is not received within the time selected, the order is routed at 975 to the outbound call queue and steps 830 through 845 in FIG. 10 are followed. If an outbound fax is received for a contact but the order requires an actual contact with the contact, the order is routed at 940 to the outbound call queue.

FIGS. 13A-13E represent alternative embodiments of FIG. 10 and FIG. 11 illustrating the flow control for Contact Management against the context of specific protocol resolution. During order completion the order is reviewed to determine whether the required prescription elements are present. The required prescription elements represent the key elements of a prescription that must be present and valid to dispense the prescription. If all the required elements are present the order is reviewed. However, if the required elements are not present, the order is submitted to at least one further work queue for additional processing. A determination is then made as to whether only Alpha or “Routers, Counters, and Flags” Protocols remain unresolved. Alpha protocols are created and resolved automatically and exist for each order until the order is ready to be locked in preventing additional order edits and routed to a dispensing pharmacy.

Order completion involves the resolution of any applicable protocols pertaining to an order. If a protocol cannot be resolved by checking it against relational databases, it may require at 1025 contacting the prescriber or someone within the prescriber's office to resolve the protocol. If a prescriber contact is necessary at 1025 to resolve an applicable protocol the order is routed at 1030 to the outbound calling queue. The order is retrieved at 1035 by a system user and a determination is made at 1040 as to whether the protocol can be resolved by faxing the prescriber with the outstanding protocol to be resolved. If the protocol is resolvable by faxing at 1040 the prescriber, a fax is sent at 1045 to the prescriber. Sending the fax to the prescriber creates a time stamp within the system. The time is measured at 1050 from the time stamp against a predetermined value and if the time, as measured from the time stamp, exceeds a predetermined value the fax wait time is timed out, and the order is routed at 1030 to the outbound call queue in which steps 1030 through 1040 are repeated.

If however an inbound fax is received at 1055 within the predetermined value, an automatic match process is initiated at 1060 attempting to match the incoming fax with the order that spawned the original outgoing fax to which the incoming fax is a response. If the order is found at 1065 a system user enters at 1070 the information contained in the incoming fax into the order. The order is then reviewed at 1070 and submitted for resolution processing at 1075. Alternatively, if the order is not found at 1065 through the automatic match process, the order then becomes handled at 1080 through standard operating procedures. Standard operating procedures include, for example, the user reviewing the response received against the current state of the order on the system. If, for example, the order has been cancelled, no further action is taken. If the order has been transmitted to a dispensing pharmacy then the faxed response is compared to the system data to determine that the correct information is processed. If the data on the system is the same as the faxed data then no further action is taken, however, if discrepancies exist than the order is reviewed by a user for further processing and resolution. Responses not received at 1056 within the predetermined value as measured from the transmittal are routed at 1030 to the outbound call queue.

If the inbound fax response is received at 1250 on a fax server, the fax server routes at 1255 the response to a work queue based on the fax response identification. All order objects are retrieved at 1260 from the work queue and the fax response is appended at 1265 to the order. Responses not received at 1056 within the predetermined value as measured from the transmittal are routed at 1030 to the outbound call queue. If the user determines at 1040 that the protocol is not resolvable by sending a fax to the prescriber, the user initiates a phone call at 1085 by dialing the prescriber at 1090.

Upon reaching the dialed number at 1095, the user attempts at 1100 to contact the prescriber or other decision maker. If the prescriber or other decision maker is reached at 1100 the user introduces the protocol to be resolved at 1105 and transfers at 1110 the call to a pharmacist. The call transfer is then followed by or concurrent with the user shelving the order and routing the order at 1115 to the pharmacist. The pharmacist retrieves at 1120 the order from the shelf and reviews at 1125 the intervention with the prescriber and resolves the protocol(s). The order is then submitted at 1130 to a work queue for further processing.

If upon placing the call there is no answer at 1095, a call back slip is completed at 1135 and the call is rescheduled and the outbound call queue is updated at 1140 accordingly. A call back slip is printed at 1145 and the order is routed at 1030 to the outbound call queue. Alternatively, if the call solicits an answer but the prescriber or other decision maker is not available at 1100, a call back slip is completed at 1150 and order identifying information is left at 1150 with the prescriber's office. The outbound call queue is updated at 1140 accordingly. A call back slip is printed at 1145 and the order is routed at 1030 to the outbound call queue.

FIG. 13C illustrates an example of the prescriber call back process when the prescriber is responding at 1155 to a message left through the outbound call queue process. The call is routed at 1160 to the designated hunt group for call backs. A system user receives the call at 1165 and obtains the initial information. If the prescriber has the order invoice information 1170, the system user retrieves at 1175 the order using the invoice number or other protocol resolution application. Alternatively the system user retrieves at 1180 the generated call back slip from the outbound call queue procedure using the patient's last name. The system user once having located the order transfers at 1110 the call to a pharmacist. The call transfer is then followed by or is concurrent with at 1115 the user shelving the order and routing it to the pharmacist. The pharmacist retrieves at 1120 the order from the shelf and reviews at 1125 the intervention with the prescriber and resolves the protocol. The order is then submitted at 1130 to a work queue for further processing.

Alternatively, if an applicable protocol can be resolved at 1190 by an administrative protocol instead of contacting the prescriber or prescriber's office, the applicable administrative protocol(s) is applied at 1195 to the order from an administrative or rules relational database. If the order is not resolvable at 1190 by the application of an administrative protocol(s) a determination at 1200 is made as to whether the order has any outstanding calls to prescriber or a prescriber's office and if not the order is resolved at 1205 using a professional protocol(s) relational database. After at least one professional protocol(s) has been applied at 1205 to the resolution of the order, a determination at 1210 is made as to where a contact to a prescriber or prescriber's office is necessary to resolve any additional outstanding applicable protocols. If a prescriber call is determined at 1215 not to be necessary, a pharmacist indicates at 1220 which order items are to be called on and routes at 1030 the order to the outbound call queue. If a call is determined necessary, the order is updated at 1225 and routed at 1230 to a work queue for further processing.

However, if the order has associated with it an outstanding call(s) to a prescriber or prescriber's office, the order is queued at 1050 in a wait queue until either the prescriber or prescriber's office responds within the designated wait time or the time the order spends in the wait queue exceeds a predetermined value.

FIGS. 14A-14E depicts an example of the resolution of an order with a Managed Care protocol. A Managed Care protocol subsists within the Professional Protocols and arises when a therapeutically equivalent substitute medication is available for the one prescribed. The availability of a therapeutically equivalent substitute medication presents an ‘interchange opportunity.’ The prescriber is contacted by phone or fax to determine whether the prescriber will approve the interchange request.

A pharmacist reviews at 1300 the edits and initially determines at 1305 and 1310 if the prescription is a screen out or faxable, respectively. If the prescription is a ‘screen out’ the pharmacist resolves at 1315 the order per standard operating procedure and then releases at 1320 to a work queue for further processing at 1325. A screen out results from insufficient system resources or time to pursue a Managed Care opportunity or an interchange opportunity. Standard operating procedures include, for example, updating a system screen that notes the order was not pursued as an interchange. If the prescription is not a screen out, but is instead faxable an auto fax is launched. A date and time in which to receive a call back or other contact in response to outbound fax is appended at 1330 to the order, the system is updated at 1335 to reflect that an auto fax has been launched in furtherance of resolving the order. The order is placed at 1340 in a wait queue until either a response is received at 1343 within a predetermined time or the time the order spends in the wait queue exceeds at 1350 the predetermined time. If the time the order spends in the wait queue exceeds at 1341 the predetermined time, the order is routed at 1400 to the outbound call queue.

The outbound call queue is for an order that is non-faxable or an order for which the time the order has spent in a wait time queue has exceeded a predetermined value. An order in the outbound queue is retrieved at 1405 from the queue by a user. After the order is retrieved from the queue the user dials at 1400 the order prescriber. If the outbound call is answered at 1415 the user attempts 1420 to reach the prescriber or other decision maker. If the prescriber or other decision maker is reached the user introduces at 1425 the issue and if the number at 1430 from which the prescriber is contacted is a secure fax number the user updates at 1435 the prescriber's master file information and launches at 1325 an auto fax.

Alternatively, if the number from which the prescriber is contacted is not a secure fax number, the user transfers at 1440 the call to a pharmacist. Concurrent with or subsequent to the transfer of the call to the pharmacist the user routes at 1445 the order to the pharmacist's virtual shelf. The pharmacist retrieves at 1450 the order from the virtual shelf and discusses at 1455 the protocol to be resolved with the prescriber. If a call back is necessary 1460, the pharmacist enters at 1465 the call back date, time and comments in the prescriber contact tracking screen and the Contact System screen and assigns at 1470 a visibility protocol addition and completes a call back slip. If the time in which to conduct the call back is timed out 1475, the order is routed at 1400 to the outbound call queue and steps 1400 through 1415 of FIG. 14C are repeated.

Inbound calls received at 1480 within the predetermined time are routed at 1485 to their designated hunt group for call backs. A non-pharmacist receives at 1490 the call and obtains the initial information regarding the order. Initially, the non-pharmacist attempts at 1495 to located the order through its invoice number. However, if the caller does not have the invoice number the non-pharmacist attempts at 1500 to locate the order using a patient's last name, call back slip, or other protocol resolution application. If the caller does not have the invoice number the non-pharmacist will attempt to locate the order using Protocol Resolution, which allows the user to step through screens as needed.

FIGS. 12A and 12B depict an example of the resolution of an order with a Managed Care protocol attached to the order according to an alternative embodiment of the present invention. According to this embodiment, an approval for a drug interchange (switching to a generic version) occurs after a prescription has been processed. The approved order is flagged on the system so that the drug interchange occurs at refill time. The edits to the order are reviewed at 1600 to determine whether the order matches with formulary compliance authorization. If an interchange authorization is available 1605 in any other pharmacy, the order is routed at 1610 to a supervisor. The supervisor contacts at 1615 other supervisors. A fax indicating formulary compliance is received at 1620. The formulary compliance letter is scanned and inserted at 1625 into the order. The order is routed at 1630 to the outbound calling queue. A verification call is conducted at 1635 and if the interchange is verified 1640, the pharmacist annotates at 1645 the prescription in the shadow file and manually enters at 1650 non-preferred prescription in an application that prints patient and prescriber letters that are required by law. The application is referred to as a Quonset hut. The hardcopy of the fax formulary compliance letter is then destroyed at 1655 and the order is released at 1660 into a work queue for further order processing. If the interchange is not verified 1640, the order is processed at 1665 per managed care standard operating procedure and released at 1670 into a work queue for further order processing. The standard operating procedure includes, for example, manual procedures followed when an interchange is not approved and allows the system files to be updated so that order processing can continue.

However, if an interchange authorization 1605 is not available, an attempt to match at 1675 the formulary compliance letter. The non-preferred prescription is manually entered at 1680 in the Quonset hut. The formulary compliance letter and prescription hardcopy are scanned at 1685 into the system. The scanned images are inserted at 1690 into the other image order documents. The order is released at 1695 into a work queue for further order processing. The original formulary compliance letter is shredded at 1700 per standard operating procedure.

FIGS. 13A-13B depict examples of protocol resolution of an order with managed care protocols attached to the order according to an alternative embodiment of the present invention. Protocols are added at 1900 to the managed care order. The managed care order is reviewed at 1905 to determine whether the order matches with the late fax. If an interchange authorization exists 1910 in another pharmacy, the order is routed at 1915 to a supervisor who in turn contacts at 1920 other supervisors. The fax is received at 1925 and the late fax is imaged and inserted at 1930 into the order images order documents. The order is then routed at 1935 to the outbound call queue for a verification call. The verification call is conducted at 1940 and if the interchange is verified 1945, the refill for the prescription is entered at 1950 into the system with the new prescription number using the pull and copy (PULLC/PULLN) utility. The pull and copy utility copies a prescription into a new invoice. The order is then routed at 1955 to a pharmacist and the interchange is processed at 1960 according to managed care standard operating procedures. The non-preferred prescription is manually entered at 1965 in the Quonset hut. A prescriber letter is generated at 1970 and the late fax copy is destroyed at 1975 per standard operating procedure. The order is released into a work queue for further order processing. If the interchange is not verified 1945, the order is processed at 1946 according to managed care standard operating procedures.

If no interchange authorization exists 1910 in another pharmacy, the order is routed at 1916 to a non-pharmacist and the late fax is scanned and imaged at 1917. The imaged late fax is appended at 1918 to the imaged order documents and the prescription is annotated at 1919. The refill for the prescription is entered at 1950 into the system with the new prescription number using PULLC/PULLN utility. The order is then routed at 1955 to a pharmacist and the interchange is processed at 1960 according to managed care standard operating procedures. The non-preferred prescription is manually entered at 1965 in the Quonset hut. A prescriber letter is generated at 1970 and the late fax copy is destroyed at 1975 per standard operating procedure. The order is released at 1980 into a work queue for further order processing.

Command and Control

FIG. 17 depicts a schematic of information visibility to the Command and Control module. The Command and Control module is a user interface that sits atop the order processing system. The Command and Control module tracks work queue activity, individual user activity, process control information, system production and system 5 resource availability. The Command and Control module can extract information on any single queue or groups of queues and perform manipulations on the extracted data through standard database query tools to produce status reports on any single, or in combination, aspect of the system. The data in the resultant reports are hyperlinked to the underlying data used to generate them.

FIG. 18 depicts an example of an instrument panel that is part of the user interface of the Command and Control module. FIG. 18 depicts a screen containing instrument panels representing the states of selected system queues. The gauges of the instrument panel indicate the quantitative loads in each selected queue present in the instrument panel. Each gauge also provides an indication of the health of each represented queues by its color. The range of colors each gauge can assume are predetermined and are selected to indicate at least three queue health states. The first color indicates that the queue is healthy and not overloaded. The second color indicates caution and that the queue is approaching a critical load point. The third color indicates that the queue has exceeded its critical load point and system adjustments must be made to rebalance the load to bring down the queue level to within an acceptable operating range.

Each gauge is hyperlinked to the underlying data responsible for the gauge representation. Selecting a particular gauge drills down to all the orders in the queue representing the gauge. The orders within the selected queue can be configured to be displayed in either graphical, as shown in FIG. 19, or table format, as shown in FIG. 20, wherein the ordinate and the abscissa of any graphical format or the columns and rows of the table are configurable by a user to represent orders within a queue by a number of variables including, for example, slicing the time from the newest arrived order to the 5 queue to the longest held order in the same queue into predetermined intervals to show the distribution of orders in the queue by time. An example of this is shown in FIG. 21. FIG. 19 depicts a graphical representation of select system queues. FIG. 20 is a bar graph wherein each bar represents a particular queue and the height of the bar represents the number of orders in that queue. Each bar in the bar graph is hyperlinked to its underlying queue and linking to the underlying data provides a list of the all the orders in the selected queue.

FIG. 20 depicts select system queues in table format wherein each queue is broken out into categories or types of orders contained in the queue, the total number of system orders in any one queue, and the percent of the total system orders are in any one queue. Queue categories include, for example, whether the order is a new prescription, a refill prescription, or a mix of both new prescriptions and refill prescriptions, how many orders are just payments alone without orders, and how many orders are in a miscellaneous catch all category. The table entries are hyperlinked to their supporting data and allow a user to link or drill down to the underlying data.

FIG. 22 represents a combination screen in which both a bar graph of select queues and a table of select queues are provided. The queues presented in the bar graph do not necessarily have to be the same queues presented in the table.

The Command and Control module of the present invention also provides several positive control mechanisms for the tracking of an order in the order processing system. One positive control mechanism, and an alternative embodiment of the present invention, involves each system queue acknowledging the receipt of an order from the preceding queue from which the order was immediately received. Another positive control mechanism, and an alternative embodiment of the present invention, involves the order processing system of the present invention sending an alert to the user or paging the user whenever an order has been in one particular longer than a predetermined time. Positive control also provides the user with the capability of locating any order in the system and reviewing its journey through the pharmacy or order processing system. Ways in which to query the positive control database to review an order include, for example, by Invoice Number, by Prescription Number, by Member Number, and by Work Order ID. Starting with any one of the above pieces of information, a user can identify, for example, the following: the queue in which an order currently resides, the queues where the order has been, the amount of time the order spent in each queue, and the total elapsed time that the order has been in the pharmacy.

The Command and Control module of the present invention can be configured to provide browser-based functionality and is capable of operating on any suitable personal computer or workstation.

Network Configuration

FIG. 23 shows one possible hardware and network configuration for a system according to the present invention. PC workstation 2300 is attached to data server 2305 which is attached to a local area network (LAN) 2310. The data server 2305 communicates with the other servers on the LAN and a mainframe system 2315 to present a user with workcases. Also attached to the PC workstation 2300 is a biometric capture device 2316 which controls access to the PC workstation 2300 and thus the data server 2305, the LAN 2310 and the system mainframe 2315. An optical scanner 2320 (which may include a bar code reading capability) is attached to an image server 2325 which is attached to the LAN 2310. A workflow sever 2330 is attached to the LAN 2310 and manages the flow of orders. An optical disc server 2335 and jukebox 2340 is attached to the LAN 2310 for image archival purposes. Also attached to the LAN 2310 is a system of relational databases 2345 that identifies the system processing logic. The entire ensemble of components connected to the LAN 2310 represents a single HUB 2350 or order processing center. One network configuration of the present invention consists of system of geographically distinct HUBs 2351, 2352, and 2353 respectively, connected to a central system mainframe 2315.

Distributed Order Processing

According to an alternative embodiment of the present invention, the functionality performed by each processor of FIG. 1 can be distributed across several HUBs. For example, HUB1 conducts all the preprocessing and scanning of incoming mail whereas HUB2 is responsible for the entry of all non-clinical data with HUB3 conducting only clinical order entry and/or verification. HUB4 would then execute the actual dispensing and shipping. Alternatively, the processing tasks can be distributed across HUBs based on front end and back end tasks. For example, a single HUB may execute all the order processing steps up until and including routing the order to a dispensing pharmacy or pharmacies whereas a second HUB would execute all the order dispensing and shipping steps.

Alternatively each HUB would receive and process orders from its assigned geographic region. For example, a New York HUB would receive and process orders from states in the Northeastern United States while a central California HUB would receive and process order from states in the Southwestern United States.

The present invention is not limited to applications involving the processing of medical prescriptions but can be applied to any situation in which a mail order industry desires to decrease its reliance on paper documents and manual document transmittal methods. The various processes and flow charts described herein may be modified and/or sequenced differently.

In general, it should be emphasized that the various components of embodiments of the present invention can be implemented in hardware, software, or a combination thereof. In such embodiments, the various components and steps would be implemented in hardware and/or software to perform the functions of the present invention. Any presently available or future developed computer software language and/or hardware components can be employed in such embodiments of the present invention. For example, at least some of the functionality mentioned above could be implemented using C or C++ programming languages.

Preferred and alternate embodiments of the present invention have now been described in detail. It is so noted, however, that this description of these specific embodiments is merely illustrative of the principles underlying the inventive concept. It is therefore, contemplated that various modifications of the disclosed embodiments will, without departing from the spirit and scope of the invention, be apparent to persons of ordinary skill in the art. 

1. A computer implemented method for the automated processing of an order for at least one medical prescription, the method comprising: receiving said order, wherein said order is received through a predefined communication channel; assigning said order to at least one queue, wherein said queue is selected from a plurality of queues; tracking by the computer system the order through said plurality of queues and a length of time the order spends within any one queue; determining by the computer system whether the length of time said order spends in any one queue exceeds a predefined value, and whether the predetermined value is exceeded, transmitting an alert a user; and processing by the computer system said order comprising executing actions by the computer to process said order from at least one initial queue to a final queue, through at least one intermediate queue, wherein said final queue results in said order shipped to a recipient of said order.
 2. The method of claim 1, wherein the method is performed responsive to a user's. profile.
 3. The method of claim 1, further comprising communicating through a positive control mechanism by said plurality of queues with each other, and wherein said positive control mechanism allows said order to be tracked through said automated processing.
 4. The method of claim 3, further comprising sending by the positive control mechanism an acknowledgement upon receipt of said order to a preceding queue from which said order was received.
 5. The method of claim 3, further comprising tracking by the positive control mechanism the length of time said order spends in any one queue.
 6. The method of claim 3, further comprising tracking by the positive control mechanism the length of time said order spends in any one queue, and wherein when the length of time said order spends in any one queue exceeds a predefined value an alert is sent to a user.
 7. The method of claim 1, further comprising: receiving said order, wherein said order is received through a predefined communication channel comprising paper document channels and electronic channels and identifying any previously information associated with said order; determining whether said order requires conversion to an image; converting said order, which requires imaging, into an image; and associating said image with said order.
 8. The method of claim 7, wherein said step of determining if imaging is required further comprises the steps of: receiving said order; identifying any previously imaged document or information, which can be associated with said order, wherein said relevant information comprises number of prescriptions in an order, prescription classification, member number associated with a benefit plan, group number associated with the benefit plan, and sub-group number s associated with the benefit plan, amount and type of payment, patient/client correspondence, prescriber name, patient/client name, prescription issue date, drug information, drug strength, drug usage directions, number of allowed refills, quantity of medication to dispense, and dosage per day; and bypassing said imaging step if said information or said previously imaged document is identified to process said order without performing said imaging step.
 9. The method of claim 1, further comprising: analyzing said order to determine whether there is any information missing or unclear associated with said order; and resolving said missing or unclear information by steps comprising at least one of suspending said order; cancelling said prescription; cancelling said order; alerting said order with generic brand drug availability; associating said order with a new invoice; and review of said order.
 10. The method of claim 1, further comprising: providing a predetermined level of access to at least one of the plurality of queues by a user responsive to a profile assigned to the user.
 11. The method of claim 1, further comprising: scanning the order and assigning an identification number to each order.
 12. The method of claim 1, further comprising: receiving and analyzing images associated with said order; classifying each image associated with said order; verifying said order details; entering said order into a processing device; validating said order; applying at least one protocol to said order to progress said order toward said final queue; and reviewing said order after at least one protocol has been applied.
 13. The method of claim 12, further comprising: analyzing said order to determine whether the at least one protocol is to be applied; resolving the at least one protocol when applied against at least one database; and repeating said steps of analyzing said order to determine whether the at least one protocol applies and resolving the at least one protocol against the at least one database until resolved.
 14. The method of claim 13, wherein said at least one database is selected from at least one of: a clinical database, a plan database, a sales database, a contacts database, an accounts receivable database, a formulary database, a pricing database, a client profile database, a patient history database, and combinations thereof.
 15. The method of claim 1, further comprising: classifying each document in said order; verifying each document in said order; verifying the total number of prescriptions in said order; verifying and entering a prescription classification for said order; at least one of verifying and entering at least one of a member number, a group number, and a subgroup number for said order.
 16. The method of claim 1, further comprising dispensing a portion of said order before all prescriptions in said multi-prescription order are complete.
 17. The method of claim 1, further comprising restricting user access to available queues.
 18. A computer implemented method for the automated processing of an order for at least one medical prescription, the method comprising: receiving said order, wherein said order is received through a predefined communication channel; assigning said order to at least one queue, wherein said queue is selected from a plurality of queues; tracking by the computer system the order through said plurality of queues and a length of time the order spends within any one queue; providing a predetermined level of access to at least one of the plurality of queues by a user responsive to a profile assigned to the user; determining by the computer system whether the length of time said order spends in any one queue exceeds a predefined value, and whether the predetermined value is exceeded, transmitting an alert a user; and processing by the computer system said order comprising executing actions by the computer to process said order from at least one initial queue to a final queue, through at least one intermediate queue, wherein said final queue results in said order shipped to a recipient of said order.
 19. The method of claim 18, wherein the method is performed responsive to a user's. profile.
 20. The method of claim 18, further comprising communicating through a positive control mechanism by said plurality of queues with each other, and wherein said positive control mechanism allows said order to be tracked through said automated processing.
 21. The method of claim 20, further comprising sending by the positive control mechanism an acknowledgement upon receipt of said order to a preceding queue from which said order was received.
 22. The method of claim 20, further comprising tracking by the positive control mechanism the length of time said order spends in any one queue.
 23. The method of claim 20, further comprising tracking by the positive control mechanism the length of time said order spends in any one queue, and wherein when the length of time said order spends in any one queue exceeds a predefined value an alert is sent to a user.
 24. The method of claim 18, further comprising: receiving said order, wherein said order is received through a predefined communication channel comprising paper document channels and electronic channels and identifying any previously information associated with said order; determining whether said order requires conversion to an image; converting said order, which requires imaging, into an image; and associating said image with said order.
 25. The method of claim 24, wherein said step of determining if imaging is required further comprises the steps of: receiving said order; identifying any previously imaged document or information, which can be associated with said order, wherein said relevant information comprises number of prescriptions in an order, prescription classification, member number associated with a benefit plan, group number associated with the benefit plan, and sub-group number s associated with the benefit plan, amount and type of payment, patient/client correspondence, prescriber name, patient/client name, prescription issue date, drug information, drug strength, drug usage directions, number of allowed refills, quantity of medication to dispense, and dosage per day; and bypassing said imaging step if said information or said previously imaged document is identified to process said order without performing said imaging step.
 26. The method of claim 18, further comprising: analyzing said order to determine whether there is any information missing or unclear associated with said order; and resolving said missing or unclear information by steps comprising at least one of suspending said order; cancelling said prescription; cancelling said order; alerting said order with generic brand drug availability; associating said order with a new invoice; and review of said order.
 27. The method of claim 18, further comprising: receiving and analyzing images associated with said order; classifying each image associated with said order; verifying said order details; entering said order into a processing device; validating said order; applying at least one protocol to said order to progress said order toward said final queue; and reviewing said order after at least one protocol has been applied.
 28. The method of claim 27, further comprising: analyzing said order to determine whether the at least one protocol is to be applied; resolving the at least one protocol when applied against at least one database; and repeating said steps of analyzing said order to determine whether the at least one protocol applies and resolving the at least one protocol against the at least one database until resolved.
 29. The method of claim 28, wherein said at least one database is selected from at least one of: a clinical database, a plan database, a sales database, a contacts database, an accounts receivable database, a formulary database, a pricing database, a client profile database, a patient history database, and combinations thereof.
 30. The method of claim 18, further comprising: classifying each document in said order; verifying each document in said order; verifying the total number of prescriptions in said order; verifying and entering a prescription classification for said order; at least one of verifying and entering at least one of a member number, a group number, and a subgroup number for said order.
 31. The method of claim 18, further comprising dispensing a portion of said order before all prescriptions in said multi-prescription order are complete.
 32. A computer implemented method for the automated processing of an order for at least one medical prescription, the method comprising: receiving said order, wherein said order is received through a predefined communication channel; assigning said order to at least one queue, wherein said queue is selected from a plurality of queues; applying at least one protocol to said order to progress said order toward a final queue; reviewing said order after at least one protocol has been applied. analyzing said order to determine whether the at least one protocol is to be applied; resolving the at least one protocol when applied against at least one database; and repeating said steps of analyzing said order to determine whether the at least one protocol applies and resolving the at least one protocol against the at least one database until resolved; tracking by the computer system the order through said plurality of queues and a length of time the order spends within any one queue; providing a predetermined level of access to at least one of the plurality of queues by a user responsive to a profile assigned to the user; determining by the computer system whether the length of time said order spends in any one queue exceeds a predefined value, and whether the predetermined value is exceeded, transmitting an alert a user; and processing by the computer system said order comprising executing actions by the computer to process said order from at least one initial queue to the final queue, through at least one intermediate queue, wherein said final queue results in said order shipped to a recipient of said order. 